SpectraPro HRS-300 is engineered to deliver both the outstanding spectral resolution and the astigmatism correction needed for advanced microspectroscopy and multichannel fiber applications. This 300 mm imaging spectrograph’s optical performance is further optimized via ResXtreme™, an exclusive new spectral deconvolution technology from Princeton Instruments that is provided with every SpectraPro HRS. ResXtreme can improve spectral resolution, peak intensities, and consistency across the 2D focal
plane by as much as 60% with the push of a button.

Princeton Instruments, a leading worldwide provider of scientific imaging and spectroscopy instrumentation, is pleased to announce the appointment of ROSH Electroptics as their exclusive representative in Israel.

Princeton Instruments is pleased to introduce its KURO:1200B, the world’s first scientific CMOS camera system to implement back-illuminated sensor technology. Until now, this key technology had been leveraged almost exclusively by CCD camera systems, which despite their excellent sensitivity are unable to match CMOS frame rates.

Princeton Instruments is pleased to introduce its SOPHIA-XO:2048 high-speed, ultra-low-noise camera, which is engineered to address even the most demanding very low flux scientific applications. The camera features a 2048 x 2048, 15 µm2 pixel CCD and provides >3 fps with 16 MHz readout speed at full resolution.

Princeton Instruments is pleased to introduce its SOPHIA series, a line of next-generation, ultra-low-noise cameras engineered to address even the most demanding low-light-level scientific applications. These cameras feature Princeton Instruments’ proprietary new ArcTec™ thermoelectric cooling technology and will be shown publicly for the first time at SPIE Photonics West in San Francisco, February 16–18.

Researchers affiliated with the Department of Medical Physics and Bioengineering, University College London, designed and tested a NIR spectroscopy system, which includes an Acton LS-785 spectrometer and PIXIS 512 CCD camera, to aid in the diagnosis of neonatal brain injury.

This new addition to the popular NIRvana® line features a specially designed InGaAs focal plane array (FPA) that has extremely low readout and thermal noise that is ideal for ultra-low-light imaging and spectroscopy.